1. Optically-derived estimates of phytoplankton size class and taxonomic group biomass in the Eastern Subarctic Pacific Ocean
- Author
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Tao Zeng, Philippe D. Tortell, William J. Burt, Kevin R. Arrigo, Nina Nemcek, M. Angelica Peña, Chen Zeng, and Sarah Z. Rosengard
- Subjects
Biomass (ecology) ,010504 meteorology & atmospheric sciences ,Backscatter ,Aquatic Science ,Particulates ,Oceanography ,Atmospheric sciences ,01 natural sciences ,Subarctic climate ,010309 optics ,Productivity (ecology) ,13. Climate action ,0103 physical sciences ,Phytoplankton ,Environmental science ,14. Life underwater ,Absorption (electromagnetic radiation) ,Hydrography ,0105 earth and related environmental sciences - Abstract
We evaluate several algorithms for the estimation of phytoplankton size class (PSC) and functional type (PFT) biomass from ship-based optical measurements in the Subarctic Northeast Pacific Ocean. Using underway measurements of particulate absorption and backscatter in surface waters, we derived estimates of PSC/PFT based on chlorophyll-a concentrations (Chl-a), particulate absorption spectra and the wavelength dependence of particulate backscatter. Optically-derived [Chl-a] and phytoplankton absorption measurements were validated against discrete calibration samples, while the derived PSC/PFT estimates were validated using size-fractionated Chl-a measurements and HPLC analysis of diagnostic photosynthetic pigments (DPA). Our results showflo that PSC/PFT algorithms based on [Chl-a] and particulate absorption spectra performed significantly better than the backscatter slope approach. These two more successful algorithms yielded estimates of phytoplankton size classes that agreed well with HPLC-derived DPA estimates (RMSE = 12.9%, and 16.6%, respectively) across a range of hydrographic and productivity regimes. Moreover, the [Chl-a] algorithm produced PSC estimates that agreed well with size-fractionated [Chl-a] measurements, and estimates of the biomass of specific phytoplankton groups that were consistent with values derived from HPLC. Based on these results, we suggest that simple [Chl-a] measurements should be more fully exploited to improve the classification of phytoplankton assemblages in the Northeast Pacific Ocean.
- Published
- 2018
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